35
A
Torque level of the start up after an inversion due to safety edge or anticrushing
0 → start up not enable, the gate inverts with the torque settled during the normal travel
1-8 → LEVEL (1 = minimum... 8 = maximum)
8
36
A
Start up times
1-20 → SECONDS of the start up torque
5
38
A
Release thrust
:: when it receives an input and the gate is completely closed, it makes a closing for a time
settled and after it opens. It helps a release of electric lock.
0 → it normally starts and it does not make the inversion. The release thrust is not enable
1-99 → DECIMAL SECONDS time of the first closing
0
41
Slow-down speed
0 → slow speed during the slow-down
1 → very slow speed during the slow-down
2 → slow-down not enables
0
42
A
Sensibility to find an obstacle during the normal travel
1-99 → sensibility (1=not sensible ... 99=max sensibility)
70
43
A
Sensibility to find an obstacle during the slow-down
1-99 → sensibility (1=not sensible ... 99=max sensibility)
40
49
A
Automatic reclosing chances after an inversion due to safety edge or anticrushing
0 → NOT automatic reclosing due to safety edge or anticrushing
1-3 → numbers of automatic reclosing chances due to safety edge or anticrushing
0
50
A
Behaviour if we interrupt the beam of photocell 1 (FT1) during the opening
0 → IGNORE, it does nothing or FT1 is not instsalled
1 → STOP, the gate stops until the next input
2 → IMMEDIATELY INVERtS, so it makes a closing
3 → TEMPORARY STOP, when the beam is restored it continues to open
4 → INVERTS when the beam is restored the gates inverts, so it makes a closing
0
51
A
Behaviour if we interrupt the beam of photocell 1 (FT1) during the closing
0 → IGNORE, it does nothing or FT1 is not instsalled
1 → STOP, the gate stops until the next input
2 → IMMEDIATELY INVERtS, so it makes an opening
3 → TEMPORARY STOP, when the beam is restored it continues to open
4 → INVERTS when the beam is restored the gates inverts, so it makes an opening
2
52
A
When the gate is closed it allows an opening with the beam of photocell 1 (FT1) interrupted
0 → gate closed, NOT allowed the opening by the beam of photocell (FT1) interrupted
1 → gate closed, allowed the opening by the beam of photocell (FT1) interrupted
2 → when the beam of photocell (FT1) is interrupted, it causes an opening
0
53
A
Behaviour if we interrupt the beam of photocell 2 (FT2) during the opening
0 → IGNORE, it does nothing or FT2 is not instsalled
1 → STOP, the gate stops until the next input
2 → IMMEDIATELY INVERtS, so it makes a closing
3 → TEMPORARY STOP, when the beam is restored it continues to open
4 → INVERTS when the beam is restored the gates inverts, so it makes a closing
3
54
A
Behaviour if we interrupt the beam of photocell 2 (FT2) during the closing
0 → IGNORE, it does nothing or FT2 is not instsalled
1 → STOP, the gate stops until the next input
2 → IMMEDIATELY INVERtS, so it makes an opening
3 → TEMPORARY STOP, when the beam is restored it continues to open
4 → INVERTS when the beam is restored the gates inverts, so it makes an opening
2
55
A
When the gate is closed it allows an opening with the beam of photocell 2 (FT2) interrupted
0 → gate closed, NOT allowed the opening by the beam of photocell (FT2) interrupted
1 → gate closed, allowed the opening by the beam of photocell (FT2) interrupted
2 → when the beam of photocell (FT2) is interrupted, it causes an opening
0
56
A
When the gate is completely open, it closes after 6 seconds if the beam of photocells is interrupted
0 → an interruption of the beam of photocells when the gate is open, it does nothing
1 → when the gate is completely open it closes after 6 sec. if there is an interruption of FT1
2 → when the gate is completely open it closes after 6 sec. if there is an interruption of FT2
0
60
A
Enables breaking when the gate achieves the limit switch
0 → breaking OFF on limit switch
1 → breaking ON on limit switch
1
61
A
Enables breaking due to photocells
0 → breaking OFF on photocells
1 → breaking ON on photocells
1
62
A
Enables breaking due to STOP input
0 → breaking OFF on STOP
1 → breaking ON on STOP
1
13
